Description

upgradable_lock is meant to carry out the tasks for read-locking, unlocking, try-read-locking and timed-read-locking (recursive or not) for the Mutex. Additionally the upgradable_lock can transfer ownership to a scoped_lock using transfer_lock syntax. The Mutex need not supply all of the functionality. If the client of upgradable_lock<Mutex> does not use functionality which the Mutex does not supply, no harm is done. Mutex ownership can be shared among read_locks, and a single upgradable_lock. upgradable_lock does not support copy semantics. However upgradable_lock supports ownership transfer from a upgradable_locks or scoped_locks via transfer_lock syntax.

Effects: m.try_lock_upgradable(). Postconditions: mutex() == &m. owns() == the return value of the m.try_lock_upgradable() executed within the constructor. Notes: The constructor will take upgradable-ownership of the mutex if it can do so without waiting. Whether or not this constructor handles recursive locking depends upon the mutex. If the mutex_type does not support try_lock_upgradable, this constructor will fail at compile time if instantiated, but otherwise have no effect.

Effects: m.timed_lock_upgradable(abs_time) Postconditions: mutex() == &m. owns() == the return value of the m.timed_lock_upgradable() executed within the constructor. Notes: The constructor will take upgradable-ownership of the mutex if it can do so within the time specified. Whether or not this constructor handles recursive locking depends upon the mutex. If the mutex_type does not support timed_lock_upgradable, this constructor will fail at compile time if instantiated, but otherwise have no effect.

Effects: No effects on the underlying mutex. Postconditions: mutex() == the value upgr.mutex() had before the construction. upgr.mutex() == 0. owns() == upgr.owns() before the construction. upgr.owns() == false. Notes: If upgr is locked, this constructor will lock this upgradable_lock while unlocking upgr. If upgr is unlocked, then this upgradable_lock will be unlocked as well. Only a moved upgradable_lock's will match this signature. An non-moved upgradable_lock can be moved with the expression: "boost::move(lock);". This constructor does not alter the state of the mutex, only potentially who owns it.

Effects: If scop.owns(), m_.unlock_and_lock_upgradable(). Postconditions: mutex() == the value scop.mutex() had before the construction. scop.mutex() == 0. owns() == scop.owns() before the constructor. After the construction, scop.owns() == false. Notes: If scop is locked, this constructor will transfer the exclusive-ownership to an upgradable-ownership of this upgradable_lock. Only a moved sharable_lock's will match this signature. An non-moved sharable_lock can be moved with the expression: "boost::move(lock);".

Effects: If shar.owns() then calls try_unlock_sharable_and_lock_upgradable() on the referenced mutex. a)if try_unlock_sharable_and_lock_upgradable() returns true then mutex() obtains the value from shar.release() and owns() is set to true. b)if try_unlock_sharable_and_lock_upgradable() returns false then shar is unaffected and this upgradable_lock construction has the same effects as a default construction. c)Else shar.owns() is false. mutex() obtains the value from shar.release() and owns() is set to false. Notes: This construction will not block. It will try to obtain mutex ownership from shar immediately, while changing the lock type from a "read lock" to an "upgradable lock". If the "read lock" isn't held in the first place, the mutex merely changes type to an unlocked "upgradable lock". If the "read lock" is held, then mutex transfer occurs only if it can do so in a non-blocking manner.

Effects: If owns(), then unlock_upgradable() is called on mutex(). *this gets the state of upgr and upgr gets set to a default constructed state. Notes: With a recursive mutex it is possible that both this and upgr own the mutex before the assignment. In this case, this will own the mutex after the assignment (and upgr will not), but the mutex's upgradable lock count will be decremented by one.

~upgradable_lock();

Effects: if (owns()) m_->unlock_upgradable(). Notes: The destructor behavior ensures that the mutex lock is not leaked.

upgradable_lock public member functions

voidlock();

Effects: If mutex() == 0 or if already locked, throws a lock_exception() exception. Calls lock_upgradable() on the referenced mutex. Postconditions: owns() == true. Notes: The sharable_lock changes from a state of not owning the mutex, to owning the mutex, blocking if necessary.

booltry_lock();

Effects: If mutex() == 0 or if already locked, throws a lock_exception() exception. Calls try_lock_upgradable() on the referenced mutex. Postconditions: owns() == the value returned from mutex()->try_lock_upgradable(). Notes: The upgradable_lock changes from a state of not owning the mutex, to owning the mutex, but only if blocking was not required. If the mutex_type does not support try_lock_upgradable(), this function will fail at compile time if instantiated, but otherwise have no effect.

booltimed_lock(constboost::posix_time::ptime& abs_time);

Effects: If mutex() == 0 or if already locked, throws a lock_exception() exception. Calls timed_lock_upgradable(abs_time) on the referenced mutex. Postconditions: owns() == the value returned from mutex()->timed_lock_upgradable(abs_time). Notes: The upgradable_lock changes from a state of not owning the mutex, to owning the mutex, but only if it can obtain ownership within the specified time. If the mutex_type does not support timed_lock_upgradable(abs_time), this function will fail at compile time if instantiated, but otherwise have no effect.

voidunlock();

Effects: If mutex() == 0 or if not locked, throws a lock_exception() exception. Calls unlock_upgradable() on the referenced mutex. Postconditions: owns() == false. Notes: The upgradable_lock changes from a state of owning the mutex, to not owning the mutex.

boolowns()const;

Effects: Returns true if this scoped_lock has acquired the referenced mutex.

operatorunspecified_bool_type()const;

Conversion to bool. Returns owns().

mutex_type*mutex()const;

Effects: Returns a pointer to the referenced mutex, or 0 if there is no mutex to reference.

mutex_type*release();

Effects: Returns a pointer to the referenced mutex, or 0 if there is no mutex to reference. Postconditions: mutex() == 0 and owns() == false.